// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/quic/quic_unacked_packet_map.h" #include "net/quic/test_tools/quic_test_utils.h" #include "testing/gtest/include/gtest/gtest.h" using std::min; using std::vector; namespace net { namespace test { namespace { // Default packet length. const uint32 kDefaultAckLength = 50; const uint32 kDefaultLength = 1000; class QuicUnackedPacketMapTest : public ::testing::Test { protected: QuicUnackedPacketMapTest() : now_(QuicTime::Zero().Add(QuicTime::Delta::FromMilliseconds(1000))) { } ~QuicUnackedPacketMapTest() override { STLDeleteElements(&packets_); } SerializedPacket CreateRetransmittablePacket( QuicPacketSequenceNumber sequence_number) { packets_.push_back(new QuicEncryptedPacket(nullptr, kDefaultLength)); return SerializedPacket(sequence_number, PACKET_1BYTE_SEQUENCE_NUMBER, packets_.back(), 0, new RetransmittableFrames()); } SerializedPacket CreateNonRetransmittablePacket( QuicPacketSequenceNumber sequence_number) { packets_.push_back(new QuicEncryptedPacket(nullptr, kDefaultLength)); return SerializedPacket(sequence_number, PACKET_1BYTE_SEQUENCE_NUMBER, packets_.back(), 0, nullptr); } void VerifyInFlightPackets(QuicPacketSequenceNumber* packets, size_t num_packets) { unacked_packets_.RemoveObsoletePackets(); if (num_packets == 0) { EXPECT_FALSE(unacked_packets_.HasInFlightPackets()); EXPECT_FALSE(unacked_packets_.HasMultipleInFlightPackets()); return; } if (num_packets == 1) { EXPECT_TRUE(unacked_packets_.HasInFlightPackets()); EXPECT_FALSE(unacked_packets_.HasMultipleInFlightPackets()); ASSERT_TRUE(unacked_packets_.IsUnacked(packets[0])); EXPECT_TRUE(unacked_packets_.GetTransmissionInfo(packets[0]).in_flight); } for (size_t i = 0; i < num_packets; ++i) { ASSERT_TRUE(unacked_packets_.IsUnacked(packets[i])); EXPECT_TRUE(unacked_packets_.GetTransmissionInfo(packets[i]).in_flight); } size_t in_flight_count = 0; for (QuicUnackedPacketMap::const_iterator it = unacked_packets_.begin(); it != unacked_packets_.end(); ++it) { if (it->in_flight) { ++in_flight_count; } } EXPECT_EQ(num_packets, in_flight_count); } void VerifyUnackedPackets(QuicPacketSequenceNumber* packets, size_t num_packets) { unacked_packets_.RemoveObsoletePackets(); if (num_packets == 0) { EXPECT_FALSE(unacked_packets_.HasUnackedPackets()); EXPECT_FALSE(unacked_packets_.HasUnackedRetransmittableFrames()); return; } EXPECT_TRUE(unacked_packets_.HasUnackedPackets()); for (size_t i = 0; i < num_packets; ++i) { EXPECT_TRUE(unacked_packets_.IsUnacked(packets[i])) << packets[i]; } EXPECT_EQ(num_packets, unacked_packets_.GetNumUnackedPacketsDebugOnly()); } void VerifyRetransmittablePackets(QuicPacketSequenceNumber* packets, size_t num_packets) { unacked_packets_.RemoveObsoletePackets(); size_t num_retransmittable_packets = 0; for (QuicUnackedPacketMap::const_iterator it = unacked_packets_.begin(); it != unacked_packets_.end(); ++it) { if (it->retransmittable_frames != nullptr) { ++num_retransmittable_packets; } } EXPECT_EQ(num_packets, num_retransmittable_packets); for (size_t i = 0; i < num_packets; ++i) { EXPECT_TRUE(unacked_packets_.HasRetransmittableFrames(packets[i])) << " packets[" << i << "]:" << packets[i]; } } vector packets_; QuicUnackedPacketMap unacked_packets_; QuicTime now_; }; TEST_F(QuicUnackedPacketMapTest, RttOnly) { // Acks are only tracked for RTT measurement purposes. unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(1), 0, NOT_RETRANSMISSION, now_, kDefaultAckLength, false); QuicPacketSequenceNumber unacked[] = { 1 }; VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyInFlightPackets(nullptr, 0); VerifyRetransmittablePackets(nullptr, 0); unacked_packets_.IncreaseLargestObserved(1); VerifyUnackedPackets(nullptr, 0); VerifyInFlightPackets(nullptr, 0); VerifyRetransmittablePackets(nullptr, 0); } TEST_F(QuicUnackedPacketMapTest, DiscardOldRttOnly) { // Acks are only tracked for RTT measurement purposes, and are discarded // when more than 200 accumulate. const size_t kNumUnackedPackets = 200; for (size_t i = 1; i < 400; ++i) { unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(i), 0, NOT_RETRANSMISSION, now_, kDefaultAckLength, false); unacked_packets_.RemoveObsoletePackets(); EXPECT_EQ(min(i, kNumUnackedPackets), unacked_packets_.GetNumUnackedPacketsDebugOnly()); } } TEST_F(QuicUnackedPacketMapTest, RetransmittableInflightAndRtt) { // Simulate a retransmittable packet being sent and acked. unacked_packets_.AddSentPacket(CreateRetransmittablePacket(1), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked[] = { 1 }; VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyInFlightPackets(unacked, arraysize(unacked)); VerifyRetransmittablePackets(unacked, arraysize(unacked)); unacked_packets_.RemoveRetransmittability(1); VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyInFlightPackets(unacked, arraysize(unacked)); VerifyRetransmittablePackets(nullptr, 0); unacked_packets_.IncreaseLargestObserved(1); VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyInFlightPackets(unacked, arraysize(unacked)); VerifyRetransmittablePackets(nullptr, 0); unacked_packets_.RemoveFromInFlight(1); VerifyUnackedPackets(nullptr, 0); VerifyInFlightPackets(nullptr, 0); VerifyRetransmittablePackets(nullptr, 0); } TEST_F(QuicUnackedPacketMapTest, RetransmittedPacket) { // Simulate a retransmittable packet being sent, retransmitted, and the first // transmission being acked. unacked_packets_.AddSentPacket(CreateRetransmittablePacket(1), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(2), 1, LOSS_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked[] = { 1, 2 }; VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyInFlightPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 2 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); unacked_packets_.RemoveRetransmittability(1); VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyInFlightPackets(unacked, arraysize(unacked)); VerifyRetransmittablePackets(nullptr, 0); unacked_packets_.IncreaseLargestObserved(2); VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyInFlightPackets(unacked, arraysize(unacked)); VerifyRetransmittablePackets(nullptr, 0); unacked_packets_.RemoveFromInFlight(2); QuicPacketSequenceNumber unacked2[] = { 1 }; VerifyUnackedPackets(unacked2, arraysize(unacked2)); VerifyInFlightPackets(unacked2, arraysize(unacked2)); VerifyRetransmittablePackets(nullptr, 0); unacked_packets_.RemoveFromInFlight(1); VerifyUnackedPackets(nullptr, 0); VerifyInFlightPackets(nullptr, 0); VerifyRetransmittablePackets(nullptr, 0); } TEST_F(QuicUnackedPacketMapTest, RetransmitThreeTimes) { // Simulate a retransmittable packet being sent and retransmitted twice. unacked_packets_.AddSentPacket(CreateRetransmittablePacket(1), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); unacked_packets_.AddSentPacket(CreateRetransmittablePacket(2), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked[] = { 1, 2 }; VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyInFlightPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 1, 2 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); // Early retransmit 1 as 3 and send new data as 4. unacked_packets_.IncreaseLargestObserved(2); unacked_packets_.RemoveFromInFlight(2); unacked_packets_.RemoveRetransmittability(2); unacked_packets_.RemoveFromInFlight(1); unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(3), 1, LOSS_RETRANSMISSION, now_, kDefaultLength, true); unacked_packets_.AddSentPacket(CreateRetransmittablePacket(4), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked2[] = { 1, 3, 4 }; VerifyUnackedPackets(unacked2, arraysize(unacked2)); QuicPacketSequenceNumber pending2[] = { 3, 4, }; VerifyInFlightPackets(pending2, arraysize(pending2)); QuicPacketSequenceNumber retransmittable2[] = { 3, 4 }; VerifyRetransmittablePackets(retransmittable2, arraysize(retransmittable2)); // Early retransmit 3 (formerly 1) as 5, and remove 1 from unacked. unacked_packets_.IncreaseLargestObserved(4); unacked_packets_.RemoveFromInFlight(4); unacked_packets_.RemoveRetransmittability(4); unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(5), 3, LOSS_RETRANSMISSION, now_, kDefaultLength, true); unacked_packets_.AddSentPacket(CreateRetransmittablePacket(6), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked3[] = { 3, 5, 6 }; VerifyUnackedPackets(unacked3, arraysize(unacked3)); QuicPacketSequenceNumber pending3[] = { 3, 5, 6 }; VerifyInFlightPackets(pending3, arraysize(pending3)); QuicPacketSequenceNumber retransmittable3[] = { 5, 6 }; VerifyRetransmittablePackets(retransmittable3, arraysize(retransmittable3)); // Early retransmit 5 as 7 and ensure in flight packet 3 is not removed. unacked_packets_.IncreaseLargestObserved(6); unacked_packets_.RemoveFromInFlight(6); unacked_packets_.RemoveRetransmittability(6); unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(7), 5, LOSS_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked4[] = { 3, 5, 7 }; VerifyUnackedPackets(unacked4, arraysize(unacked4)); QuicPacketSequenceNumber pending4[] = { 3, 5, 7 }; VerifyInFlightPackets(pending4, arraysize(pending4)); QuicPacketSequenceNumber retransmittable4[] = { 7 }; VerifyRetransmittablePackets(retransmittable4, arraysize(retransmittable4)); // Remove the older two transmissions from in flight. unacked_packets_.RemoveFromInFlight(3); unacked_packets_.RemoveFromInFlight(5); QuicPacketSequenceNumber pending5[] = { 7 }; VerifyInFlightPackets(pending5, arraysize(pending5)); // Now test ClearAllPreviousTransmissions, leaving one packet. unacked_packets_.ClearAllPreviousRetransmissions(); QuicPacketSequenceNumber unacked5[] = { 7 }; VerifyUnackedPackets(unacked5, arraysize(unacked5)); QuicPacketSequenceNumber retransmittable5[] = { 7 }; VerifyRetransmittablePackets(retransmittable5, arraysize(retransmittable5)); } TEST_F(QuicUnackedPacketMapTest, RetransmitFourTimes) { // Simulate a retransmittable packet being sent and retransmitted twice. unacked_packets_.AddSentPacket(CreateRetransmittablePacket(1), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); unacked_packets_.AddSentPacket(CreateRetransmittablePacket(2), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked[] = { 1, 2 }; VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyInFlightPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 1, 2 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); // Early retransmit 1 as 3. unacked_packets_.IncreaseLargestObserved(2); unacked_packets_.RemoveFromInFlight(2); unacked_packets_.RemoveRetransmittability(2); unacked_packets_.RemoveFromInFlight(1); unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(3), 1, LOSS_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked2[] = { 1, 3 }; VerifyUnackedPackets(unacked2, arraysize(unacked2)); QuicPacketSequenceNumber pending2[] = { 3 }; VerifyInFlightPackets(pending2, arraysize(pending2)); QuicPacketSequenceNumber retransmittable2[] = { 3 }; VerifyRetransmittablePackets(retransmittable2, arraysize(retransmittable2)); // TLP 3 (formerly 1) as 4, and don't remove 1 from unacked. unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(4), 3, TLP_RETRANSMISSION, now_, kDefaultLength, true); unacked_packets_.AddSentPacket(CreateRetransmittablePacket(5), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked3[] = { 1, 3, 4, 5 }; VerifyUnackedPackets(unacked3, arraysize(unacked3)); QuicPacketSequenceNumber pending3[] = { 3, 4, 5 }; VerifyInFlightPackets(pending3, arraysize(pending3)); QuicPacketSequenceNumber retransmittable3[] = { 4, 5 }; VerifyRetransmittablePackets(retransmittable3, arraysize(retransmittable3)); // Early retransmit 4 as 6 and ensure in flight packet 3 is removed. unacked_packets_.IncreaseLargestObserved(5); unacked_packets_.RemoveFromInFlight(5); unacked_packets_.RemoveRetransmittability(5); unacked_packets_.RemoveFromInFlight(3); unacked_packets_.RemoveFromInFlight(4); unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(6), 4, LOSS_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked4[] = { 4, 6 }; VerifyUnackedPackets(unacked4, arraysize(unacked4)); QuicPacketSequenceNumber pending4[] = { 6 }; VerifyInFlightPackets(pending4, arraysize(pending4)); QuicPacketSequenceNumber retransmittable4[] = { 6 }; VerifyRetransmittablePackets(retransmittable4, arraysize(retransmittable4)); } TEST_F(QuicUnackedPacketMapTest, RestoreInflight) { // Simulate a retransmittable packet being sent, retransmitted, and the first // transmission being acked. unacked_packets_.AddSentPacket(CreateRetransmittablePacket(1), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); unacked_packets_.RemoveFromInFlight(1); unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(2), 1, RTO_RETRANSMISSION, now_, kDefaultLength, true); QuicPacketSequenceNumber unacked[] = { 1, 2 }; VerifyUnackedPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 2 }; VerifyInFlightPackets(retransmittable, arraysize(retransmittable)); VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); EXPECT_EQ(kDefaultLength, unacked_packets_.bytes_in_flight()); // Simulate an F-RTO, and restore 1 to flight. unacked_packets_.RestoreInFlight(1); VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyInFlightPackets(unacked, arraysize(unacked)); VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); EXPECT_EQ(2 * kDefaultLength, unacked_packets_.bytes_in_flight()); } TEST_F(QuicUnackedPacketMapTest, SendWithGap) { // Simulate a retransmittable packet being sent, retransmitted, and the first // transmission being acked. unacked_packets_.AddSentPacket(CreateRetransmittablePacket(1), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); unacked_packets_.AddSentPacket(CreateRetransmittablePacket(3), 0, NOT_RETRANSMISSION, now_, kDefaultLength, true); unacked_packets_.AddSentPacket(CreateNonRetransmittablePacket(5), 3, LOSS_RETRANSMISSION, now_, kDefaultLength, true); EXPECT_EQ(1u, unacked_packets_.GetLeastUnacked()); EXPECT_TRUE(unacked_packets_.IsUnacked(1)); EXPECT_FALSE(unacked_packets_.IsUnacked(2)); EXPECT_TRUE(unacked_packets_.IsUnacked(3)); EXPECT_FALSE(unacked_packets_.IsUnacked(4)); EXPECT_TRUE(unacked_packets_.IsUnacked(5)); EXPECT_EQ(5u, unacked_packets_.largest_sent_packet()); } } // namespace } // namespace test } // namespace net